The two countries are vying to create an exascale computer that could lead to significant advances in many scientific fields.
Martin Giles writes:
… The race to hit the exascale milestone is part of a burgeoning competition for technological leadership between China and the US. (Japan and Europe are also working on their own computers; the Japanese hope to have a machine running in 2021 and the Europeans in 2023.)
In 2015, China unveiled a plan to produce an exascale machine by the end of 2020, and multiple reports over the past year or so have suggested it’s on track to achieve its ambitious goal. But in an interview with MIT Technology Review, Depei Qian, a professor at Beihang University in Beijing who helps manage the country’s exascale effort, explained it could fall behind schedule. “I don’t know if we can still make it by the end of 2020,” he said. “There may be a year or half a year’s delay.”
Teams in China have been working on three prototype exascale machines, two of which use homegrown chips derived from work on existing supercomputers the country has developed. The third uses licensed processor technology. Qian says that the pros and cons of each approach are still being evaluated, and that a call for proposals to build a fully functioning exascale computer has been pushed back.
Given the huge challenges involved in creating such a powerful computer, timetables can easily slip, which could make an opening for the US. China’s initial goal forced the American government to accelerate its own road map and commit to delivering its first exascale computer in 2021, two years ahead of its original target. The American machine, called Aurora, is being developed for the Department of Energy’s Argonne National Laboratory in Illinois. Supercomputing company Cray is building the system for Argonne, and Intel is making chips for the machine. Read the rest of this entry »